Shifting device for manufacturing continuous terminals

Inactive Publication Date: 2003-06-26
TSAI CHOU HSUAN
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0011] To achieve the above-mentioned objects, a shifting device for manufacturing continuous terminals includes a body and a shaft. The body is formed with a hole and an inlet and an outlet both communicating with the hole. A direction into the inlet and a direction out of the outlet are the same. The inlet is shifted a predetermined distance away from the outlet. The shaft is fitted with the hole of the body and defines a spiral channel with the body after fitting with the hole of the body. The spiral channel corresponds to the inlet and the outlet of the body. According to the structure, the continuous terminals enter the body from the inlet and travel along the spiral channel. Then, the continuous terminals travel out of the body from the outlet with a predetermined distance shifted away from the inputted terminals. Thus, the processes for manufacturing terminals without waste material can be simplified.

Problems solved by technology

In the above-mentioned manufacturing proecesses, although it is convenient to form two rows of continuous terminals at one time, the material can not be optimized in this terminal arrangement.
That is, because regions 17 between any two adjacent terminals are the non-used parts, a lot of waste material during the pressing processes may be formed, thereby increasing the material costs.
There are so many disadvantages in the above-mentioned manufacturing processes that the manufacturing processes are difficulty to be implemented.
Therefore, the costs of the press die may be relatively high.

Method used

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  • Shifting device for manufacturing continuous terminals
  • Shifting device for manufacturing continuous terminals
  • Shifting device for manufacturing continuous terminals

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Embodiment Construction

[0021] Referring to FIGS. 4 to 6, the shifting device in accordance with a preferred embodiment of the invention includes a body 30, two conduits 34 and 36, and a shaft 50.

[0022] The body 30 is formed with a hole 31 and an inlet 32 and an outlet 33 both communicating with the hole 31. The direction into the inlet 32 and the direction out of the outlet 33 are the same. The inlet 32 is shifted a distance away from the outlet 33.

[0023] The two conduits 34 and 36 are horizontally placed on the inlet 32 and outlet 33 of the body 30. The conduit 34 is formed with an inner passageway 35 communicating with the hole 31 via the inlet 32. The conduit 36 is formed with an inner passageway 37 communicating with the hole 31 via the outlet 33.

[0024] The shaft 50 is fitted with the hole 31 of the body 30 and is formed with a spiral slot 52 on the surface thereof. The depth of the slot 52 is slightly greater than the thickness of the terminal band. A spiral channel 53 corresponding to the inlet 32 a...

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Abstract

A shifting device for manufacturing continuous terminals includes a body and a shaft. The body is formed with a hole and an inlet and an outlet both communicating with the hole. A direction into the inlet and a direction out of the outlet are the same. The inlet is shifted a predetermined distance away from the outlet. The shaft is fitted with the hole of the body and defines a spiral channel with the body after fitting with the hole of the body. The spiral channel corresponds to the inlet and the outlet of the body. According to the structure, the continuous terminals enter the body from the inlet and travel along the spiral channel. Then, the continuous terminals travel out of the body from the outlet with a predetermined distance shifted away from the inputted terminals. Thus, the processes for manufacturing terminals without waste material can be simplified.

Description

[0001] 1. Field of the Invention[0002] The invention relates to a shifting device, in particular to a shifting device for manufactuing continuous terminals.[0003] 2. Description of the Related Art[0004] FIG. 1 is a schematic illustration showing a conventional process for pressing continuous terminals. As shown in FIG. 1, two rows of continuous terminals 12 and 14 are formed by pressing a continuous copper band 10 using a press die. Then, the two rows of continuous terminals 12 and 14 are cut along a separation region 16. Thus, it is convenient to form two rows of continuous terminals at one time.[0005] In the above-mentioned manufacturing proecesses, although it is convenient to form two rows of continuous terminals at one time, the material can not be optimized in this terminal arrangement. That is, because regions 17 between any two adjacent terminals are the non-used parts, a lot of waste material during the pressing processes may be formed, thereby increasing the material costs...

Claims

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Application Information

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IPC IPC(8): H01R43/16
CPCH01R43/16Y10T29/53213Y10T29/5193Y10T29/53235Y10T29/49204Y10T29/53261Y10T29/49121Y10T29/49117Y10T29/49222Y10T29/532Y10T29/53209
Inventor TSAI, CHOU HSUAN
Owner TSAI CHOU HSUAN
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